Abstract

Functional bowel disorders such as irritable bowel syndrome (IBS) are common, multifactorial and have a major impact on the quality of life of individuals diagnosed with the condition. Heterogeneity in symptom manifestation, which includes changes in bowel habit and visceral pain sensitivity, are an indication of the complexity of the underlying pathophysiology. It is accepted that dysfunctional gut-brain communication, which incorporates efferent and afferent branches of the peripheral nervous system, circulating endocrine hormones and local paracrine and neurocrine factors, such as host and microbially-derived signaling molecules, underpins symptom manifestation. This review will focus on the potential role of hepatic bile acids in modulating gut-to-brain signaling in IBS patients. Bile acids are amphipathic molecules synthesized in the liver, which facilitate digestion and absorption of dietary lipids. They are also important bioactive signaling molecules however, binding to bile acid receptors which are expressed on many different cell types. Bile acids have potent anti-microbial actions and thereby shape intestinal bacterial profiles. In turn, bacteria with bile salt hydrolase activity initiate the critical first step in transforming primary bile acids into secondary bile acids. Individuals with IBS are reported to have altered microbial profiles and modified bile acid pools. We have assessed the evidence to support a role for bile acids in the pathophysiology underlying the manifestation of IBS symptoms.

Highlights

  • Over a hundred trillion microbial organisms, mostly bacteria, inhabit the human colon and have co-evolved with their hosts to have diverse, but primarily beneficial, functions

  • We have examined the potential role of bile acids to modify host physiological homeostasis, with a focus on gut-brain axis signaling and their potential role in irritable bowel syndrome (IBS)-related bowel dysfunction

  • Bile acid malabsorption typically results in chronic watery diarrhea, a symptom characteristic of IBS with diarrhea (IBS-D), the seleniumhomocholic acid taurine test (Se-HCAT) test, which detects increased colonic bile acid exposure can differentiate between the two disorders [125]

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Summary

INTRODUCTION

Over a hundred trillion microbial organisms, mostly bacteria, inhabit the human colon and have co-evolved with their hosts to have diverse, but primarily beneficial, functions. Bile salt hydrolaze (BSH)-containing bacteria hydrolyze and deconjugate taurine or glycine from the sterol core of the primary bile acids, facilitating further passive reabsorption in the colon. This process enables further microbially-mediated transformations to produce a plethora of secondary bile acids, including deoxycholic acid (DCA) and lithocholic acid (LCA). The potency of secondary bile acids for bile acid receptors differs from primary bile acids [23] and the amphipathic nature of bile acids can directly affect the physical properties of cellular lipid membranes, thereby modifying cell signal transduction [27] This has consequences for local signaling and gut homeostasis [28]

INTESTINAL PROFILE OF BILE ACIDS
IRRITABLE BOWEL SYNDROME
Microbial profiles
Enteroendocrine Cells
Immune Cells
BILE ACIDS IN THE MANIFESTATION OF IBS SYMPTOMS
Visceral Hypersensitivity
Intestinal Motor Function
Findings
DISCUSSION

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